Angle of attack sensing device



NOV. 1953 o. H. SCHUCK ET AL 2,660,056

ANGLE OF ATTACK SENSING DEVICE Filed Feb. 3, 1949 2 Sheets-Sheet l INVENTOR5 056/7? HUGO JCI/UC/I 5055 c. m az/raa/v HTTO/fA/EY Patented Nov. 24, 1953 ANGLE 0F ATTACK SENSING DEVICE Oscar Hugo Schuck and Ross C. Alderson, Minneapolis, Minn.,

assignors to Minneapolis- Honeywell Regulator Company, Minneapolis, Minn., a corporation of Delaware Application February 3, 1949, Serial No. 74,426

9 Claims.

This invention relates to an angle of attack indicator or controlling device for an aircraft and has for an object to provide an improved angle of attack indicating or controlling apparatus which is highly accurate, stable, and sensitive.

Another object of this invention is to provide an angle of attack indicator which will operate correctly for all air speeds of the aircraft.

It is a further object of this invention to provide an angle of attack indicating or controlling device which will also serve as a stall warning device and which can be used to supply a controlling signal to correct a dangerously high angle of attack condition.

A further object of this invention is to provide in an angle of attack indicating apparatus of the pressure orifice type a magnetic sprin or biasing arrangement which effects a force feedback against a control device responding to the impact and angle of attack pressures to increase the stability of the apparatus.

A still further object of this invention is to provide in an angle of attack indicator for the variable energization of the magnetic spring or restoring forces against the angle of attack pressures such that the bias will be a measure of the air speed of the aircraft.

- It is also an object of this invention to provide an angle of attack indicating or controlling device of the orifice type which utilizes a simplified electrical circuit and simplified electromagnetic devices rather than mechanical structures to supply the signal output proportional to the angle of attack sensed by the pressure orifices.

These and other objects and advantages of this :1;

invention will become apparent upon the reading of the specification in the light of the accompanying drawing, in which Figure 1 is a schematic circuit of a simplified embodiment of this invention;

Figure 2 is a schematic circuit of another embodiment of this invention; and

Figure 3 is a schematic circuit of the preferred embodiment of this invention.

In the embodiment of Figure 1, a sensin or is pressure head Ill discloses a conventional Pitot static tube with angle of attack sensing orifices indicated generally at Pu and P1. This type of device is conventionally known as a Prandtl tube and consists of a hemispherical end on a cylinfices Pu and P1 from the impact or centrally located orifice P1 determines the pressure difierences obtained from such orifices as related to the angle of attack of the aircraft. Angle of attack as'referred to herein describes the angular relationship between a line extending centrally through the cylindrical strut l l and impact orifice P1 and the line of the relative air flow. The angular displacement of the orifices Pu and P1 from P1 referred to above must be related to a calibration constant incorporated into the apparatus responding to the pressures.

The orifices of the Pitot static tube, namely P1 and P5, are connected by suitable tubes is to a differential pressure responsive device l5, such as a bellows or diaphragm. In Figure 1 the tubes I4 and 2t have also been identified by Pi, P5, P1, Pu to identify them with the pressure in each said tube and to correlate Figure 1 with Figure 2 in which the sensing head It! has been omitted. Pressure responsive device I5 is shown as an enclosed chamber having a centrally located main diaphragm l6 and a pair of sealing diaphragms IT to define the enclosed areas to which the pressure orifices are connected. An actuating rod I8 is connected to the center of the diaphragms l6 and I1 and is movable upon variation of the differences in pressures on either side of the main diaphragm. Similarly, the angle of attack sensing orifices Pu and P1 are connected by means of tubes 20 to another difierential pressure responsive device 2! such as a bellows or diaphragm. Pressure responsive device 2! is shown as identical to pressure responsive device l5 and operates in the same manner except that it responds to the difference in pressure between the angle of attack sensing orifices Pu and P1. Pressure responsive device 2| has attached thereto an actuating rod 22 which is similar in all respects to actuating rod l8 of device l5 except that it responds in movement to the difierence in pressure between the angle orifices Pu and P1. This pressure difierence, namely (Pl-Pu) is a function of the angularity of this Prandtl tube or sensing device to the air stream and hence is a function of the angle of attack. This function, however, is dependent upon the impact pressure of the air flow, more specifically, the relationshi may be written where a. is the angle of attack, and K is the constant governed by the angular displacement or arrangement of the side orifices from the impact orifice. The present invention is directed toward the utilization of these pressure differences ,in these orifices of the Prandtl tube to control the energization of the electric circuit whose output \J signal can be interpreted in terms of a. or angle of attack,

The pressure sensing device or bellows through its operating shaft I8 controls the movement of a potentiometer wiper 2 5 of potentiometer 26 along the winding 27. Wiper 254s insulated from rod I8 as indicated at 28. Potentiometer 26 is a non-linear potentiometer whoseresistance winding 21 is tapered so that the resistance between the right-hand end and slider 25' varies inversely to the linear movement of slider 28 to the right. Since rod l8 moveemaQQQIdanQe-with Pi-Ps, the resistance varies as that is, in inverseproportion to impact pressure minus static pressure. Winding 21 is. energized from, any suitable source of direct current connected to, the extremities of the; potentiometer winding. One extremity of potentiometer 21- and the wiper 2,5, of potentiometer; 2-6; are. connected byv means of conductors-3 E- and 35; to the-extremi-a tiesofanother potentiometer winding 33. Winding 38 and a wiper 39 form a potentiometer- 40; which is: energized; from potentiometer or voltage divider arrangement 26 and which is; controlled by: pressure responsive element 21. Winding 38 is center-tapped, as; at 4t, and. a conductor; 43; connects to this point a voltmeter- 45 calibrated to indicate the angle of attack. The other side of the instrument 45 is connected by conductor 44 to the wiper 39; of potentiometer 4B The Wiper- 39 is similarly insulated from actuating arm; 22,- of pressure responsive device 2| as at 46.

The circuit, arrangement, for the energization of potentiometer40. from potentiometer 26 results in the electrical equivalent of the formula of a le of-- attack referred to above. The circuit is; a potentiometer multiplying arrangement in which the voltage obtained from potentiometer 26; Or between conductors 34 and 35, is equivalent to.

PH which voltage energizes potentiometer 41]. In other words, potentiometer 4B is, energized by a source. which. varies. inversely with the, pressure difference Pi-Ps., Since. the distance of theslider 39 from the center tap will be, proportional, to, P'uPZ, it will be obvious that the voltage between slider 39 and the center tap will be proportional to P,- Pi. It. is this voltage which is applied to themeter 45. With acenter tapped; potentiometer 4.0 it is possible to obtain negative; and positive angle of attack. indications depending upon the (inference tw en. P11. and P1, and which of these pressures is of the greater magnitude. Indicator G5. has been shownschematically as a voltmeter with the indicating needle centered for a zero angle of at,- tack condition but it is to be understood that this meter may be substituted by any type of control device which instead of a visual indication could give some controlling function or sound some warning device under predetermined: conditions or angle of attack, The meter alone can be used as a stall warning indicator in that a certain portion, of its range on either side of the zero position indicates an impending stall condition.

The modification of Figure-2 utilizes. the same pressure head withthesame angular QfiflQQQnenings and the conventional Pitot static arrangement as was discussed in connection with Figure 1 The difierential pressure responsive devices and BI are substantially the same as those disclosed as 15 and 2! respectively in Figure 1- with the; exception that their outputs are utilized in a somewhat different manner. Pressureresponsive device 55 responds to the difference between impact and static pressures and pressure responsive device 61 responds to the difference between the pressures at the angle of attaekoriiices Pressure responsive device 55 has an actuating arm 58 which actuates a suitable control device 65. Control device 60 is shown in block form but it is to be understood that it can take the form of the voltage divider 2% in Figure 1 or-the form of the inductance device with amplifier and rectifier of Figure 3. This control device as shown in Figure 2 is energized by suitable source of direct current 62 through conductors E3 and supplies a current proportional to the pressure difference Pi-Ps through conductors 64 to energizing coil 65. of the magnetic spring 6'6. Magnetic spring 66 includes stationary core members 61 of magnetic material upon which the coils. 615 are positioned and a soft iron armature I0 which is mounted upon and magnetically insulated from an operating rod or bar 12 of pressure responsive device El. Upon energization of the coils: 65, the flux lines from the electromagnetic cores. 6:!- passthrough the armature It and tend to align it with the cores 6.? to keep the air gap between these parts at a minimum. The aligning force is made to be proportional to the exciting current and to the displacement of armature '10 from its equilibrium position by suitable design of the magnetic structure, as is well known in the art. Operating arm '52 of pressure responsive device 6| also. carriesa wiper 19. which cooperates with a. winding 13- of a potentiometer 89. As before, the connection between the potentiometer wiper 19 and rod 12 is insulated. Potentiometer derives its energization from a direct current source; An indicating instrument 35 in this modification, which is. the same as that described Figure 1', is connected between a center-tap 81 of potentiometer winding i8 and the Wiper 19 by means of conductors 83 and 84, respectively.

In this: embodiment, the potentiometer 80 with wiper 1-9;, which is actuated by the difference in pressure. between the angle of attack orifices, is energized, from a constant source. In place of varying the energization of potentiometer 80 to impress thereon the variable effect of impact pressure minus static pressure, the magnetic spring imposes a variable restoring force upon the arm 12 carrying wiper 19 in such a manner that. the restoring force is continuously adjusted to be proportional to the pressure difference Pi Pi. Hence the present arrangement, instead of; permitting wide ranges of movement of thepotentiometer wiper l9 upon increased air speed: conditions with their consequent large pres sure differences, and counteracting this effect by reducing the potential applied to the potentiometer winding, provides for constant energization oi the potentiometer winding l8 and increased reshunt to movement of the potentiometer wiper 19 upon increased air speed, such that the signal remains constant for a constant value of angle of attack. This arrangement fulfills the equation.

and the signal impressed upon indicating instrument 45 is a direct measure of the angle of attack.

The preferred embodiment of Figure 3 combines the principles of Figures 1 and 2 and utilizes the same sensing head including the conventional Pitot static head openings or orifices and the angle of attack orifices disposed above and below the impact orifice of this unit. The orifices of head It are connected by tubes I4 and 20 respectively to differential pressure responsive devices IIE and I2I. Pressure responsive devices I I 5 and III! are similar to those described in connection with Figures 1 and 2 and need not be further described. Pressure responsive device I I5 carries an actuating rod II8 which responds in movement to the difference in pressures between impact pressure Pi and static pressure PS. Similarly device I2I has a rod I22 which responds in movement to the difference in pressure between the angle of attack orifices Pu and P1. Device H5, through rod IIII, actuates a magnetic armature I36 of an inductive device I 3|. Inductive device I3I includes an E-shaped core member of magnetic material I32 upon the outside legs of which are positioned a pair of input coils I33 connected in series with one another and with the secondary Winding I35 of an input transformer I36 Whose primary winding I3! is energized by a suitable source of A. C. power. Positioned upon the centrally disposed leg of the E-shaped core member I32 of inductive device I3I is an output winding I49 which is connected by means of conductors III to an amplifier indicated generally at I59. Through suitable design the output voltage of winding I it is proportional in amplitude to the displacement of armature I32 from a null or no-signal position. This amplifier I5Ii forms no part of this invention other than to magnify the A. C. output of winding Mil of inductive device ISI, and has been illustrated schematically as a box which will be deemed to contain and operate as a conventional stable amplifying device and powered from any suitable source. The output of the amplifier is rectified by a rectifier indicated schematically at I5I, and the output of the rectifier I 5| is supplied to magnetic springs or electromagnetic biasing means IIII, III in a manner which will be later noted.

Actuating rod II 8 of pressure responsive device II5 also carries an armature I68 of a magnetic spring means It I. Armature I60 is made of a magnetic material and is magnetically insulated from the remaining portion of rod IIB. It operates with stationary cores I52 upon which are positioned energizing coils I63. Energizing coils I63 are connected in series with energizing coils III! of a similar magnetic spring III so that the same energizing current is applied to each magnetic spring from rectifier II. A conductor I55 connects one extremity of coils I63 to rectifier I5I and a conductor I66 connects the opposite extremity of coils I63 in series with one extremity of coils I'IZ of magnetic spring III. The opposite extremity of coils I12 is connected through a conductor It? to the other terminal of rectifier IEI. The magnetic springs I 6|, III are thus energized from the amplifier I55 controlled by output coil I IIl of the inductance device I3I as follows: amplifier I 53, rectifier I5I, conductor I55, coils I63, conductor I66, coils I72, conductor I'tl', and rectifier I5! to amplifier I 50).

Operating rod I22 of pressure-responsive device I 2! carries the armature I'I3 of magnetic spring III, which cooperates with the stationary core I'I I to exert a restoring force proportional sponsive device iZI to displacement and to exciting current. Armature I13 is made of magnetic material as is the core member I'M upon which the coils I I2 are positioned.

Also mounted on the operating arm I22 is an armature III!) of an inductive device I8I. Inductive device I8I has an E-shaped core member IE2 upon the outer legs of which are mounted input coils I83, which coils are energized from a secondary winding I38 of transformer I36, whose primary winding I3? is energized from a suitable source of A. C. voltage. The secondary or output coil Iilt of inductive device IBI is mounted on the inner leg or core member I82 and is connected by means of conductors I85 to a phase sensitive rectifier I44. Rectifier I44 is shown in block diagram since it is well known in the art and forms no part of this invention. C'ondudtors Iiit energize the phase sensitive rectifier from the A. C. source or primary side of transformer I so that a reference signal is obtained thereby. Conductors I81 connect an indicating instrument I to the phase sensitive rectifier Hid, instrument I being merely a D. C. voltmeter calibrated to indicate angle of attack. It will readily be seen that the inductive device I8! may be replaced by a control device energized from a direct current source and rectifica tion of the signal will then not be required.

Operation of the preferred embodiment illustrated in Figure 3 will now be described. Movement of rod IItI of pressure responsive device I I5 in response to a pressure difference PiPs causes displacement of armature I3fl from the null position at which no output signal is delivered by coil lid to amplifier I50. The signal which is then delivered by coil I46 is amplified by amplifier I58, rectified by rectifier IIiI, and energizes magnetic spring Itl. Magnetic spring IIiI exerts a restoring force on rod III}, causing it to move back toward the null position. This motion decreases the output signal from coil I 38, thereby reducing the excitation to magnetic spring IEI. Equilibrium is reached when the displacement of red I I8 is just sufiicient to produce an excitation of the magnetic spring IEI such that the force exerted balances that due to the pressure difference PiPs plus that due to the mechanical spring rate of the pressure responsive device H5. By suitable design the mechanical spring rate is made low and the gain of the amplifier is made high: the force exerted by the magnetic spring IEI is then proportional to the pressure difference P-iP Since the force exerted by the magnetic spring Iiii is directly proportional to the current flowing through its energizing coils I53, it follows that this current is directly proportional to the pressure difference Pz'-Ps.

the energizing current of magnetic spring Iti also, by virtue of the series connection. the energizing current for magnetic spring I? I, it follows that the spring rate against which the actuating member I22 of pressure-reoperates is proportional to Pi-'Ps. By making the mechanical spring rate of pressure-responsive device I2! low, the force exerted by the magnetic spring III is substantiaiiy that required tobalance the pressure difference PIL-PL The deflection of member I22 is then directly proportional to the presusre difference PL,PI and inversely proportional to the pressure difference PI-Ps and is therefore directly proportional to the angle of attack at any air speed. I

Defl tio o member it must be ndic ed; Fi ur s; 1. and Z s a s d as being a. me by a s sm c e e fe d a meter. A other of the many devices well known in the art for indicating displacement may be used within the scope of the present invention; by way of further illustration a magnetic pickup device or inductance device 58! is shown in Figure 3 as performing this function. When armature iii!) of the inductance device i3! is in its zero position corresponding to zero pressure dilrerence P1L-Pl, equal and opposite coupling from its exciting or input coils i315 to pickup or output coil I84 obtains and the voltage induced in coil E84 iszero. As. the armature :80 moves from this null position due to the variation in the difierence between the pressures Pu and P1, the coupling from the exciting coil 582 to output coil 18 varies and an A. C. output is obtained proportional to this pressure difference. The signal thus obtained from output coil I84 is supplied to the phase sensitive rectifier, which is also energized with a standard voltage or reference to determine phase relationship of the signal and the output of the phase-sensitive rectifier I44. energizes the indicating instrument M5 to give an indication of the angle of attack sensed.

Although it has not been specifically disclosed on the drawings, it will be readily comprehended that the indicating apparatus described herein may be used to sense movement of a craft through a surrounding medium, such as air with respect to other of its axes than the axial relationship known as angle of attack. Similarly, movement of a craft through surrounding air may be indicated for more than one axis at the same time. The disclosure of Figures 2 and 3 can particularly be adapted for such usage when one or more pairs of angularly spaced orifices are provided to sense movement of the craft in one or more directions or with respect to one or more axes, the effect of each responsive means for each pair of orifices being modified by the single air speed responsive means to give accurate and calibrated indications of each separate angular movement of the craft.

In considering this invention it should be kept in mind that the present enclosures are intended to be illustrative only and the scope of the invention is to be determined only by the appended claims.

We claim as our invention:

1. An angle of attack indicator for an aircraft comprising a pressure sensing head having impact and static pressure openings and vertically disposed angle openings in which are pressures dependent upon the angle of attack of the aircraft, a first pressure bellows responsive to the difierence in pressure in the angle openings of said pressure sensing head, an electrical signal generating means including a pair of relatively movable parts one of which is connected to said first pressure bellows and movable therewith such that the output of said signal generating means is controlled thereby in proportion to the diiference in pressures in the angle openings, a second pressure bellows responsive to the difference in pressure between the impact pressure and static pressure of said pressure sensing head, a second electrical signal generating means including a pair of relatively movable parts one of which is connected to said second pressure bellows and movable therewith such that the output of said second signal generating means is controlled thereby in proportion to the difference between impact and static pressures, electromagnetic brake means including relatively movable parts one of which is mounted on said first bellows means, said brake means being connected to and energized from said last named signal generating means to vary the movement of said first pressure bellows, and means con,- nected to and energized from the output of said first signal generating means to indicate angle of attack.

2. An angle of attack measuring apparatus for an aircraft comprising a pressure sensing head having impact and static pressure openings and vertically disposed angle openings in which are pressures dependent upon the angle of attack of the aircraft, a first pressure bellows responsive to the difference in pressure in the angle openings of said pressure sensing head, an electrical signal generating means including a pair of relatively movable parts one of which is connected to said first pressure bellows and movable therewith such that the output of said signal generating means is controlled thereby in proportion to the difierence in pressure in said angle openings, a second pressure bellows responsive to the difference in pressure between the impact pres sure and static pressure of said pressure sensing head, a second electrical signal generating means including a pair of relatively movable parts one of which is connected to said second pressure bellows and movable therewith such that the output of said second signal generating means is controlled thereby in proportion to the difference. between impact and static pressures, electromagnetic brake means including relatively movable parts one ofwhich is mounted on said first bellows means, said brake means being connected to and energized from said last named signal generating means to vary the spring rate of said first pressure bellows in proportion to the d-ifierence, between static and impact pressures, the output of said first named signal generating means being proportional to angle of attack of the aircraft at any airspeed.

3. An angle of attack indicator for an aircraft comprising a pressure sensing head having impact and static pressure openings and vertically disposed angle openings in which are pressures dependent upon the angle of attack of the aircraft, a first pressure bellows responsive to the difierence in pressure in the angle openings of said pressure sensing head, an electrical signal generating means including a pair of relatively movable parts one of which is connected to said first pressure bellows and movable therewith such that the output of said signal generating means is controlled thereby in proportion to the difference in pressures at said angle openings, a second pressure bellows responsive to the difference in pressure between the impact pressure and static pressure of said pressure sensing head, a second electrical signal generating means including a pair of relatively movable parts one of which is connected to said second pressure bellows and movable therewith such that the output of said second signal generating means is controlled thereby in proportion to the difference between impact and static pressures, electrical means mounted in part on said first named bellows means and connected in an electrical circuit with said last named signal generating means for varying the spring rate of said first named bellows means, and means connected to and energized from the output of said first named signal generating means to indicate angle of attack.

4. A device for measuring attitude or an aircraft with respect to the surrounding air including an indicator, means responsive to the difference of pressures at two angularly spaced points on said aircraft in the plane of change of attitude of said aircraft, means responsive to airspeed, a first electrical signal generating means including a pair of relatively movable parts one of which is mounted on said pressure responsive means and movable therewith such that the output of said signal generating means will be controlled thereby, a second electrical generating means including a pair of relatively movable parts one of which is mounted on said airspeed responsive means and movable therewith such that the output of said second signal generating means will be controlled thereby in proportion to the movement of said airspeed responsive means, a pair of magnetic spring means each having a pair of relatively movable parts with a part from each spring means mounted respectively on said pressure responsive means and said airspeed responsive means, circuit means connecting said magnetic springs and said second electrical signal generating means such that said magnetic springs will be energized from the output of said second signal generating means, and circuit means connecting said first named signal generating means to said indicator such that said indicator will be energized from the output of said first signal generating means.

5. A device for measuring attitude of an aircraft with respect to the surrounding air including an indicator, means responsive to the difference in pressures at two angularly spaced points on said aircraft in the plane of change of attitude of said aircraft, means responsive to airspeed, a first electrical signal generating means including a pair of relatively movable parts one of which is mounted on said pressure responsive means and movable therewith such that the output of said signal generating means therewith such that the operation of said second signal generating means will be controlled thereby in proportion to the movement of said airspeed responsive means, electrical means mounted in part on said pressure responsive means and connected in an electrical circuit with said second electrical signal generating means to be energized by said second signal generating means for modifying non-linearly the operation of said pressure responsive means, and circuit means connecting said first electrical signal generating means to said indicator for energizing said indicator to give an indication of attitude of the aircraft.

6. A device for measuring attitude of an aircraft with respect to the surrounding air including an indicator, means responsive to difference in values of pressures at two angularly spaced points on said aircraft in the plane of change of attitude of said aircraft, means responsive to airspeed, a first electrical signal generating means including a pair of relatively movable parts one of which is mounted on said pressure responsive means and movable therewith such that the output of said signal generating means will be controlled thereby, a second electrical signal generating means including a pair of relatively movable parts one of which is mounted on said airspeed responsive means and movable therewith such that the operation of said second signal generating means will be controlled thereby in proportion to the movement of said airspeed responsive means, and electrical means connected in part to said pressure responsive means and electrically connected to and energized from the output of said second electrical signal generating means for modifying the operation of said pressure responsive means to compensate for the eifect of airspeed on the value of said pressures, and circuit means connecting said first named electrical signal generating means to said indicator for energizing the same.

7. Apparatus for measuring a condition determined by a pressure differential and a second variable condition, comprising, a first electrical signal generating means including a pair of relatively movable parts, means operated by said pressure differential and connected to one of said parts of said first electrical signal generating means for controlling the output of said first signal generating means in proportion to said pressure differential, a second electrical signal generating means including a pair of relatively movable parts, means connected to one of said parts of said second electrical signal generating means and responsive to said second condition for controlling the output of said second signal generating means in proportion to the magnitude of said second condition, means electrically connected to said, second signal generating means and energized therefrom being mounted in part on said pressure difierential operated means for modifying non-linearly the operation of said pressure differential operated means, and means connected to and energized by said first signal generating means to indicate a measure of said first named condition.

8. Apparatus for measuring a condition determined by a pressure differential and a second variable condition, comprising, a first electrical signal generating means including a pair of relatively movable parts, means operated by said pressure diiferential and connected to one of said parts of said first electrical signal generating means for controlling the output of said first signal generating means in proportion to said pressure differential, a second electrical signal generating means including a pair of relatively movable parts, means connected to one of said parts of said second electrical signal generating means and responsive to said second condition for controlling the output of said second signal generating means in proportion to the magnitude of said second condition, magnetic spring means comprising a pair of relatively movable parts one part of which is mounted on said pressure differential operated means, circuit means connecting said magnetic spring means to said second electrical signal generating means to energize said magnetic spring from the output of said second signal generating means, said magnetic spring means operating to modify nonlinearly the operation of said pressure differential operated means in proportion to the output of said second signal generating means, and means connected to and energized from said first signal generating means to indicate a measure of said first named condition.

9. An angle of attack indicating apparatus for aircraft comprising a pressure sensing head hav- 11 mg impact and static pressure opening and verjtically disposed angle openings in which are sensed pressures depending upon angle of'a't'tack of the aircraft, means responsive to the pressure difie'rential between impact and static pressure, a first electrical signal generating means includ-- ing a pair of relatively movable parts one of which is attached to said pressure responsive means and operated thereby such that the output of said signal generator is proportional to the pressure differential between impact and static pressure, a first magnetic spring, means responsive to the pressure differential between the angle of opening pressures, a second electrical signal generating means including a pair of relatively movable parts one of which is at tached to said second named pressure responsive means and operated thereby such that the output of said second 'signal g'enerator is proportional to said pressure differential between the angle opening pressures, "a second magnetic spring, said first and second magnetic spring being electrically connected to "and energised from said first signal generating means and mechanically attached respectively to said first named,,pressure responsive means and said second named pressure responsive means and oper' able to vary the spring rates of said first and second named pressure responsive means; and means connected to and energized by the output of said second signal generating means to indicate angle of attack.

QSCAR, CHU

ROSS C. ALDERSON.

References Cited in the file of this patent UNITED STATES PATENTS 

